The aim of this work is to propose an efficient numerical approximation of high frequency pulses propagating in nonlinear dispersive optical media. We consider the nonlinear Maxwell’s equations with instantaneous nonlinearity. We first derive a physically and asymptotically equivalent model that is semi-linear. Then, for a large class of semi-linear systems, we describe the solution in terms of profiles. These profiles are solution of a singular equation involving one more variable describing the phase of the solution. We introduce a discretization of this equation using finite differences in space and time and an appropriate Fourier basis (with few elements) for the phase. The main point is that accurate solution of the nonlinear Maxwell e...
The propagation of electromagnetic waves is modeled by time-dependent Maxwell's equations coupled w...
Finite-difference time-domain method for numerical solution of Maxwell equations has been applied to...
The propagation of laser light has been studied through shortwave asymptotics. For lasers which prod...
Two numerical schemes are developed for solutions of the bidimensional Maxwell–Bloch equations in no...
International audienceA new approach is developed for fast solution of complex dynamic problems in n...
A non-integrable, variable coefficient nonlinear Schrödinger equation which governs the nonlinear pu...
In this paper, we suggest a new Heterogeneous Multiscale Method (HMM) for the (time-harmonic) Maxwel...
We discuss state-of-art approaches to modeling of propagation of ultrashort optical pulses in one an...
We derive various approximations for the solutions of nonlinear hyperbolic systems with fastly oscil...
We interpret the purely spectral forward Maxwell equation with up to 3rd order induced polarizations...
We present a numerical approach for the accurate simulation of the complex propagation dynamics of u...
We consider semilinear hyperbolic systems with a trilinear nonlinearity. Both the differential equat...
The purpose of this article is to provide practical introduction into numerical modeling of ultrasho...
We consider optical pulse propagation in one spatial direction and observe that for lossless media, ...
We consider a one-dimensional first-order nonlinear wave equation (the so-called forward Maxwell equ...
The propagation of electromagnetic waves is modeled by time-dependent Maxwell's equations coupled w...
Finite-difference time-domain method for numerical solution of Maxwell equations has been applied to...
The propagation of laser light has been studied through shortwave asymptotics. For lasers which prod...
Two numerical schemes are developed for solutions of the bidimensional Maxwell–Bloch equations in no...
International audienceA new approach is developed for fast solution of complex dynamic problems in n...
A non-integrable, variable coefficient nonlinear Schrödinger equation which governs the nonlinear pu...
In this paper, we suggest a new Heterogeneous Multiscale Method (HMM) for the (time-harmonic) Maxwel...
We discuss state-of-art approaches to modeling of propagation of ultrashort optical pulses in one an...
We derive various approximations for the solutions of nonlinear hyperbolic systems with fastly oscil...
We interpret the purely spectral forward Maxwell equation with up to 3rd order induced polarizations...
We present a numerical approach for the accurate simulation of the complex propagation dynamics of u...
We consider semilinear hyperbolic systems with a trilinear nonlinearity. Both the differential equat...
The purpose of this article is to provide practical introduction into numerical modeling of ultrasho...
We consider optical pulse propagation in one spatial direction and observe that for lossless media, ...
We consider a one-dimensional first-order nonlinear wave equation (the so-called forward Maxwell equ...
The propagation of electromagnetic waves is modeled by time-dependent Maxwell's equations coupled w...
Finite-difference time-domain method for numerical solution of Maxwell equations has been applied to...
The propagation of laser light has been studied through shortwave asymptotics. For lasers which prod...